\nSekiryu, H.; Shimokawa, S.; Matsuda-Ito, K.; Oda, H.; Murakami, Y.; Sonoda, K.-H.; Nakashima, K.; Matsuda, T.\n<\/p>\n
\nStem Cell Reports<\/i>, 2026. \u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9<\/a>\u3000<\/em> Turnover of NESTIN-Negative Neural Progenitors Into NESTIN-Positive State by the Lack of JMJD3<\/strong><\/p>\n \nChen, J.; Iwamori, T.; Shima, S.; Yamaguchi, M.; Imayoshi, I.; Nakashima, K.; Iwamori, N.\n<\/p>\n \nGenes to Cells<\/i>, 31(2), e70087 (2026). Akhirin Functions as an Innate Immune Barrier to Preserve Neurogenic Niche Homeostasis During Mouse Brain Development<\/strong><\/p>\n \nKudo, M.; Ohkubo, T.; Sugawara, T.; Irie, T.; Hatakeyama, J.; Tamura, S.; Shimamura, K.; Wakayama, T.; Matsuo, N.; Nakashima, K.; et al.\n<\/p>\n \nCells<\/i>, 15, 151 (2026). Dormant viral pathways underlie space-induced neural senescence: a neuroprotective strategy for spaceflight and neurological diseases<\/strong><\/p>\n \nAline M. A. Martins, Hideyuki Nakashima, Angela Macia, Taichi Umeyama, Satoshi Miyashita, Livia L. S. Nascimento, Luisa B. V. Coelho, Pinar Mesci, Erik Viirre, Nicole Suarez, Aurian Saleh, Alex Savchenko, Beatriz Freitas, Aline L. Leite, Diego M. Assis, Masataka Ishizu, Tomoo Owa, Mikio Hoshino, John R. Yates III, Kinichi Nakashima, Alysson R. Muotri\n<\/p>\n \nbioRxiv<\/i>, 2025.11.02.686043. miR-199a functions downstream of MeCP2 in neurons of MECP2 duplication syndrome models<\/strong><\/p>\n \nYuichi Akaba, Satoru Takahashi, Shota Adachi, Masatoshi Nishimura, Keiichiro Suzuki, Hideyuki Nakashima, Kinichi Nakashima, Ryutaro Kira, Pin Fee Chong, Yasunari Sakai, Yohei Hayashi, Itaru Kushima, Daisuke Mori, Yuko Arioka, Hiroki Okumura, Atsuo Nakayama, Seiji Mizuno, Toshiyuki Yamamoto, Fumitaka Osakada, Norio Ozaki, Keita Tsujimura\n<\/p>\n \niScience<\/i>, vol. 28, Issue 11, 2025, Article number: 113789. Novel plasmalogen derivative KIT-13 restores neurological function in a mouse model of Rett syndrome by reducing neuroinflammation and restoring mitochondrial function<\/strong><\/p>\n \nAkane Matsuda, Hideyuki Nakashima, Takehiko Fujino, Tatsuo Okauchi, Md Shamim Hossain, Yasunari Sakai, Shouichi Ohga, Kinichi Nakashima, Masanori Honsho\n<\/p>\n \nbioRxiv<\/i>, 2025.06.11.656246. Epigenetic regulation of neural stem cell aging in the mouse hippocampus by Setd8 downregulation<\/strong><\/p>\n Shuzo Matsubara, Kanae Matsuda-Ito, Haruka Sekiryu, Hiroyoshi Doi , Takumi Nakagawa, Naoya Murao, Hisanobu Oda, Kinichi Nakashima, and Taito Matsuda<\/p>\n EMBO Journal<\/i>., 2025, vol.44, Issue.11; 1-24<\/p>\n E3 ubiquitin ligase RMND5A maintains the self-renewal state of human neural stem\/precursor cells by regulating Wnt and mTOR signaling pathways<\/strong><\/p>\n Takumi Nakagawa,\u00a0Kosuke Hata,\u00a0Yoshihiro Izumi,\u00a0Hideyuki Nakashima,\u00a0Sayako Katada,\u00a0Taito Matsuda,\u00a0Takeshi Bamba,\u00a0Kinichi Nakashima<\/p>\n FEBS Letters<\/i>., 2025, vol.599, Number.10<\/p>\n Human microglial cells as a therapeutic target in a neurodevelopmental disease model<\/strong><\/p>\n Pinar Mesci, Christopher N. LaRock, Jacob J. Jeziorski, Hideyuki Nakashima, Natalia Chermont, Adriano Ferrasa, Roberto H. Herai, Tomoka Ozaki, Aurian Saleh, Cedric E. Snethlage, Sandra Sanchez, Gabriela Goldberg, Cleber A. Trujillo, Kinichi Nakashima, Victor Nizet, and Alysson R. Muotri<\/p>\n Stem Cell Rep<\/i>., 2024; vol.19, 1-18<\/p>\n The Derlin-1-Stat5b axis maintains homeostasis of adult hippocampal neurogenesis<\/strong><\/p>\n Naoya Murao, Taito Matsuda, Hisae Kadowaki, Yosuke Matsushita, Kousuke Tanimoto, Toyomasa Katagiri, Kinichi Nakashima, and Hideki Nishitoh<\/p>\n EMBO Rep<\/i>., 2024, 1-29<\/p>\n Direct neuronal conversion of microglia\/macrophages reinstates neurological function after stroke<\/strong><\/p>\n Takashi Irie, Taito Matsuda ,Yoshinori Hayashi and Kinichi Nakashima<\/p>\n PNAS<\/i>.,2023;vol.120, No.42 \u30d7\u30ec\u30ea\u30ea\u30fc\u30b9<\/a><\/p>\n Reduced neuroinflammation via astrocytes and neutrophils promotes regeneration after spinal cord injury in neonatal mice<\/strong><\/p>\n Kazuki Kitade, Kazu Kobayakawa, Hirokazu Saiwai, Yoshihiro Matsumoto, Kenichi Kawaguchi, Keiichiro Iida, Ken Kijima, Hirotaka Iura, Tetsuya Tamaru, Yohei Haruta, Gentaro Ono, Daijiro Konno, Takeshi Maeda, Seiji Okada, Kinichi Nakashima, Yasuharu Nakashima<\/p>\n J Neurotrauma.,2023;vol.0,No.ja<\/p>\n C4orf47 contributes to the dormancy of pancreatic cancer under hypoxic conditions<\/strong><\/p>\n Shinjiro Nagao, Hideya Onishi, Makoto Kawamoto, Shogo Masuda, Lin Na, Shinji Morisaki, Naoya Iwamoto, Yutaka Yamada, Satoko Koga, Shu Ichimiya, Kazunori Nakayama, Akira Imaizumi, Kinichi Nakashima, Yoshinao Oda, Masafumi Nakamura<\/p>\n J Cancer.,<\/em>2023;14(2):306-317<\/p>\n Lineage tracing identifies in vitro microglia-to-neuron conversion by NeuroD1 expression<\/strong><\/p>\n Takashi Irie*, Kanae Matsuda-Ito*, Taito Matsuda#, Takahiro Masuda, Marco Prinz, Noriko Isobe, Kinichi Nakashima<\/p>\n Genes Cells.,2023;1-9<\/i><\/p>\n <\/p>\n Expression level of the reprogramming factor NeuroD1 is critical for neuronal conversion efficiency from different cell types<\/strong><\/p>\n Kanae Matsuda-Ito*, Taito Matsuda*#, and Kinichi Nakashima#<\/p>\n Scientific Reports.2022;12:17980<\/em><\/p>\n Growth factors with valproic acid restore injury-impaired hearing by promoting neuronal regeneration<\/strong><\/p>\n Takahiro Wakizono, Hideyuki Nakashima, Tetsuro Yasui, Teppei Noda, Kei Aoyagi, Kanako Okada, Yasuhiro Yamada, Takashi Nakagawa, and Kinichi Nakashima<\/p>\n JCI Insight. 2021;6(22):e139171., 2021\u00a0 \u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9<\/a>\u3000<\/em><\/p>\n<\/div>\n SoxE group transcription factor Sox8 promotes astrocytic differentiation of neural stem\/precursor cells downstream of Nfia<\/strong><\/p>\n Jun Takouda, Sayako Katada, Takuya Imamura, Tsukasa Sanosaka, Kinichi Nakashima<\/p>\n<\/div>\n Pharmacol. Res. Perspect., 9(6):e00749., 2021<\/em><\/p>\n Neural stem\/precursor cells dynamically change their epigenetic landscape Sayako Katada, Jun Takouda, Takumi Nakagawa, Mizuki Honda, Katsuhide Igarashi, Takuya Imamura, Yasuyuki Ohkawa, Shoko Sato, Hitoshi Kurumizaka, and Kinichi Nakashima<\/p>\n<\/div>\n Genes Dev.,35(21-22):1431-1444., 2021<\/em>\u00a0\u00a0\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9<\/a>\u3000<\/em><\/p>\n 2021\u5e7411\u6708\u53f7\u306eCover Article \u306b\u9078\u3070\u308c\u307e\u3057\u305f\u3002<\/p>\n Neuronal activation modulates enhancer activity of genes for excitatory synaptogenesis through\u00a0de novo<\/i>\u00a0DNA methylation<\/strong><\/p>\n Tomonori KAMEDA, Hideyuki NAKASHIMA, Takumi TAKIZAWA, Fumihito MIURA, Takashi ITO, Kinichi NAKASHIMA, Takuya IMAMURA<\/p>\n<\/div>\n J Reprod Dev., 2021<\/em>, 67(6):369-379<\/p>\n Early-life midazolam exposure persistently changes chromatin accessibility to impair adult hippocampal neurogenesis and cognition<\/strong><\/p>\n Hiroyoshi Doi*, Taito Matsuda*#, Atsuhiko Sakai, Shuzo Matsubara, Sumio Hoka, Ken Yamaura, and Kinichi Nakashima#<\/p>\n<\/div>\n Proc Natl Acad Sci USA, 118(38):e2107596118., 2021<\/em>\u00a0\u00a0\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9<\/a><\/p>\n scRNA sequencing uncovers a TCF4-dependent transcription factor network regulating commissure development in mouse<\/strong><\/p>\n Marie-Theres Wittmann, Sayako Katada, Elisabeth Sock, Philipp Kirchner, Arif B Ekici, Michael Wegner, Kinichi Nakashima, Dieter Chichung Lie, Andr\u00e9 Reis<\/p>\n Development, 15;148(14):dev196022, 2021<\/em><\/p>\n Transnasal transplantation of human induced pluripotent stem cell-derived microglia to the brain of immunocompetent mice<\/strong><\/p>\n Bijay Parajuli, Hiroki Saito, Youichi Shinozaki, Eiji Shigetomi, Hiroto Miwa, Sosuke Yoneda, Miki Tanimura, Shigeki Omachi, Toshiyuki Asaki, Koji Takahashi, Masahide Fujita, Kinichi Nakashima, Schuichi Koizumi<\/p>\n Glia, 69(10), 2332-2348, 2021\u3000<\/em>\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9<\/a><\/p>\n Generation of ovarian follicles from mouse pluripotent stem cells<\/strong><\/p>\n Takashi Yoshino1, Takahiro Suzuki, Go Nagamatsu, Haruka Yabukami, Mika Ikegaya, Mami Kishima, Haruka Kita, Takuya Imamura, Kinichi Nakashima, Ryuichi Nishinakamura, Makoto Tachibana, Miki Inoue, Yuichi Shima, Ken-ichirou Morohashi, Katsuhiko Hayashi<\/p>\n Science, 373, 298, 2021<\/em><\/p>\n CADM1 and CADM2 Trigger Neuropathogenic Measles Virus-Mediated Membrane Fusion by Acting in cis<\/strong><\/p>\n Yuta Shirogane, Ryuichi Takemoto, Tateki Suzuki, Tomonori Kameda, Kinichi Nakashima, Takao Hashiguchi, and Yusuke Yanagi<\/p>\n J Virol, 24;95(14):e0052821, 2021<\/em><\/p>\n MeCP2 controls neural stem cell fate specification through miR-199a-mediated inhibition of BMP\u2013Smad signaling<\/strong><\/p>\n Hideyuki Nakashima, Keita Tsujimura, Koichiro Irie, Takuya Imamura, Cleber A. Trujillo, Masataka Ishizu, Masahiro Uesaka, Miao Pan, Hirofumi Noguchi, Kanako Okada, Kei Aoyagi, Tomoko Andoh-Noda, Hideyuki Okano, Alysson R. Muotri, Kinichi Nakashima<\/p>\n Cell Reports, 35, 109124, 2021\u3000<\/em>\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9\u00b9<\/a>\u3001\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9\u00b2 <\/a>\u3001\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9\u00b3<\/a><\/p>\n Combinatrial treatment of anti-High Mobility Group Box-1 monoclonal antibody and epothilone B improves functional recovery after spinal cord contusion injury<\/strong><\/p>\n Yicheng Zhu, Naohiro Uezono, Tetsuro Yasui, Masahide Nakajo, Tatsuya Nagai, Dengli Wang, Masahiro Nishibori, KinichiNakashima<\/p>\n Neurosci Res, 172, 17-25, 2021<\/em><\/p>\n Reconstitution of the oocyte transcriptional network with transcription factors<\/strong><\/p>\n Nobuhiko Hamazaki, Hirohisa Kyogoku, Hiromitsu Araki, Fumihito Miura, Chisako Horikawa, Norio Hamada, So Shimamoto, Orie Hikabe, Kinichi Nakashima, Tomoya S. Kitajima, Takashi Ito, Harry G. Leitch & Katsuhiko Hayashi<\/p>\n Nature, 589(7841):264-269, 2021<\/em><\/em><\/p>\n NF\u03baB and TGF\u03b2 contribute to the expression of PTPN3 in activated human lymphocytes <\/strong><\/p>\n Kazunori Nakayama, Hideya Onishi, Akiko Fujimura, Akira Imaizumi, Makoto Kawamoto, Yasuhiro Oyama, Shu Ichimiya, Satoko Koga, Yuichi Fujimoto, Kinichi Nakashima, Masafumi Nakamura<\/p>\n Cell Immunol, 358:104237, 2020<\/em><\/p>\n Identification of Qk as a glial precursor cell marker that governs the fate specification of neural stem cells to a glial cell lineage.<\/strong><\/p>\n Takeuchi A., Takahashi Y., Iida K., Hosokawa M., Irie K., Ito M., Brown BJ., Ohno K., Nakashima K. & Hagiwara M.<\/p>\n Stem Cell Rep,15(4):883-897<\/em><\/p>\n Modeling of early neural development in vitro by direct neurosphere formation culture of chimpanzee induced pluripotent stem cells.<\/strong><\/p>\n Kitajima R., Nakai R., Imamura T., Kameda T., Kozuka D., Hirai H., Ito H., Imai H., Imamura M.<\/p>\n Stem Cell Rep<\/em>, 44: 101749, 2020<\/em><\/p>\n Enhanced processivity of Dnmt1 by monoubiquitinated Histone H3.<\/strong><\/p>\n Mishima Y.,Brueckner L., Takahashi S., Kawakami T., Otani J., Shinohara A., Takeshita K.,Garvilles RG., Watanabe M., Sakai N., Takeshima H., Nachtegael C., Nishiyama A.,Nakanishi M., Arita K., Nakashima K., Hojo H., Suetake I.<\/p>\n Genes Cells<\/em>, 25: 22-32, 2020<\/em><\/p>\n Early-life exposure to low levels of permethrin exerts impairments in learning and memory with the effects on neuronal and glial population in adult male mice.<\/strong><\/p>\n Saito H., Hara K., Tominaga T., Nakashima K. & Tanemura K.<\/p>\n J Appl Toxicol<\/em>, 39:1651-1662, 2019<\/em><\/p>\n Suppressor of fused controls perinatal expansion and quiescence of future dentate adult neural stem cells.<\/strong><\/p>\n Noguchi H., Castillo J.G., Nakashima K. & Pleasure S.J.<\/p>\n eLIFE<\/em>, 8:e42918, 2019<\/em><\/p>\n Pioneer factor NeuroD1 rearranges transcriptional and epigenetic profiles to execute microglia-neuron conversion. <\/strong><\/p>\n #Matsuda T.\uff0cIrie T.\uff0cKatsurabayashi S.\uff0cHayashi T.\uff0cNagai T.\uff0cHamazaki N.\uff0cAdefuin AM.\uff0cMiura F.\uff0cIto T.\uff0cKimura H.\uff0cShirahige K.\uff0cTakeda T.\uff0cIwasaki K.\uff0cImamura T. & #Nakashima K.<\/p>\n Neuron<\/em>, 101, 472-485, 2019<\/em><\/p>\n Nox4 promotes neural stem\/precursor cell proliferation and neurogenesis in the hippocampus and restores memory function following trimethyltin-induced Injury.<\/strong><\/p>\n Yoshikawa Y.\uff0c*Ago T.\uff0cKuroda J.\uff0cWakisaka Y.\uff0cTachibana M.\uff0cKomori M.\uff0cShibahara T.\uff0cNakashima H.\uff0cNakashima K. & Kitazono T.<\/p>\n Neuroscience<\/em>, 398, 193-205, 2019<\/em><\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n Canonical TGF-\u03b2 signaling negatively regulates neuronal morphogenesis through TGIF\/Smad complex-mediated CRMP2 suppression<\/strong><\/p>\n Nakashima\u00a0H.,\u00a0Tsujimura\u00a0K.*,\u00a0Irie\u00a0K.,\u00a0Ishizu\u00a0M.,\u00a0Pan\u00a0M.,\u00a0Kameda\u00a0T. &\u00a0Nakashima K.*<\/p>\n J Neurosci<\/em>,\u00a038: 4791-4810, 2018<\/em><\/p>\n Np95\/Uhrf1 regulates tumor suppressor gene expression of neural stem\/precursor cells, contributing to neurogenesis in the adult mouse brain<\/strong><\/p>\n Murao\u00a0N., Matsubara S., Matsuda T., Noguchi H., Mutoh T., Mutoh M., Koseki H., Namihira M. &\u00a0Nakashima K.*<\/p>\n Neurosci Res<\/em>,\u00a0Epub ahead of print,\u00a0May\u00a031, 2018<\/em><\/p>\n Ectopic neurogenesis induced by prenatal antiepileptic drug exposure augments seizure susceptibility in adult mice<\/strong><\/p>\n Sakai A., Matsuda T., Doi H., Nagaishi Y., Kato K.\u00a0& Nakashima K.*<\/p>\n Proc Natl Acad Sci USA<\/em>,\u00a0Epub ahead of print,\u00a0Apr\u00a02, 2018<\/em>\u3000\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9\u306f\u3053\u3061\u3089<\/a><\/p>\n <\/p>\n Therapeutic time window of anti-high mobility group box-1 antibody administration in mouse model of spinal cord injury<\/strong><\/p>\n Nakajo M., Uezono N., Nakashima H., Wake H., Komiya S., Nishibori M.\u00a0&\u00a0Nakashima K.*<\/p>\n Neurosci Res<\/em>, Epub ahead of print,\u00a0Mar\u00a028, 2018\u00a0<\/em><\/p>\n Prior treatment with anti-High Mobility Group Box-1 antibody boosts human neural stem cell transplantation-mediated functional recovery after spinal cord injury<\/strong><\/p>\n Uezono N., Zhu Y., Fujimoto Y., Yasui T., Matsuda T., Nakajo M., Abematsu M., Setoguchi T., Mori S., Takahashi H.K., Komiya S., Nishibori M. &\u00a0Nakashima K.*<\/p>\n Stem Cells<\/em>,\u00a036, 737-750, 2018<\/em>\u3000\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9\u306f\u3053\u3061\u3089<\/a><\/p>\n <\/p>\n HMGB2 expression is associated with transition from a quiescent to an activated state of adult neural stem cells<\/strong><\/p>\n Kimura A., Matsuda T.*, Sakai A., Murao N.\u00a0& Nakashima K.* (*Corresponding authors)<\/p>\n Dev Dyn<\/em>, 247, 229-238, 2018<\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n Synergistic induction of astrocytic differentiation by factors secreted from meninges in the mouse developing brain<\/strong><\/p>\n Kawamura Y., Katada S., Noguchi H., Yamamoto H., Sanosaka T., Iihara K. & Nakashima K.*<\/p>\n FEBS Lett<\/em>,\u00a0591, 3709-3720<\/p>\n DNA methylome analysis identifies transcription factor-based epigenomic signatures of multilineage competence in neural stem\/progenitor cells<\/strong><\/p>\n Sanosaka T.\u25ca*, Imamura T.\u25ca*, Hamazaki N., Chai M.C., Igarashi K., Ideta-Otsuka M., Miura F., Ito T., Fujii N., Ikeo K. & Nakashima K.* (\u25ca<\/sup>Co-first authors,\u00a0*<\/sup>Co-corresponding authors)<\/p>\n Cell Reports<\/em>, 20, 2992\u20133003, 2017\u3000\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9\u306f\u3053\u3061\u3089<\/a><\/p>\n <\/p>\n PRMT1 regulates astrocytic differentiation of embryonic neural stem\/precursor cells<\/strong><\/p>\n Honda\u00a0M., Nakashima\u00a0K. & Katada S.*<\/p>\n J Neurochem<\/em>,\u00a0142, 901-907, 2017<\/p>\n Hypoxia epigenetically confers astrocytic differentiation potential on human pluripotent cell-derived neural precursor cells<\/strong><\/p>\n Yasui\u00a0T., Uezono N., Nakashima H, Noguchi H., Matsuda T., Noda-Andoh T., Okano H. & Nakashima K.*<\/p>\n Stem Cell Reports<\/em>, 8, 1743\u20131756, 2017\u3000\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9\u306f\u3053\u3061\u3089<\/a><\/p>\n NEUROD1 instructs neuronal conversion in non-reactive astrocytes<\/strong><\/p>\n Brulet R., Matsuda T., Zhang L., Miranda C., Giacca M., Kaspar B.K., Nakashima K. & Hsieh J.*<\/p>\n Stem Cell Reports<\/em>, 8, 1506\u20131515, 2017<\/p>\n Evolutionary acquisition of promoter-associated non-coding RNA (pancRNA) repertoires diversifies species-dependent gene activation mechanisms in mammals<\/strong><\/p>\n Uesaka M., Agata\u00a0K., Oishi T., Nakashima\u00a0K. & Imamura\u00a0T.*<\/p>\n BMC Genomics<\/em>,\u00a018, 285, 2017<\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n
\nhttps:\/\/doi.org\/10.1016\/j.stemcr.2025.102789<\/a>\n<\/p>\n
\nhttps:\/\/doi.org\/10.1111\/gtc.70087<\/a>\n<\/p>\n
\nhttps:\/\/doi.org\/10.3390\/cells15020151<\/a>\n<\/p>\n2025\u5e74<\/h4>\n
\n https:\/\/doi.org\/10.1101\/2025.11.02.686043 <\/a>\n<\/p>\n
\nhttps:\/\/doi.org\/10.1016\/j.isci.2025.113789<\/a>\n<\/p>\n
\nhttps:\/\/doi.org\/10.1101\/2025.06.11.656246<\/a>\n<\/p>\n2024\u5e74<\/h4>\n
2023\u5e74<\/h4>\n
2022\u5e74<\/h4>\n
2021\u5e74<\/h4>\n
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to\u00a0differentially respond to BMP signaling for fate switching during brain development<\/strong><\/p>\n2020\u5e74<\/h4>\n
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